gis best practices for insurance
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Understanding the geographic component of insurance can help agencies create products and services their customers need at the right price.TRANSCRIPT
GIS for Insurance
GIS BEST PRACTICES SERIES | MARCH 2012
2GIS for Insurance February 2012
3 GIS for Insurance
5 Grabbing Hurricane Irene by the Tail
10 Storm Chaser
13 Putting the Pieces Back Together13 Highlights
13 Preparing for the Worst
14 Events Increase Data Appetite
15 Remote Sensing Versus Near Sensing
16 From Crowd to Cloud
17 Counting on Risk17 Highlights
18 Pushing the Limits with GIS
19 Advantages Found in Data Accuracy
21 Insuring America’s Farmland21 Highlights
22 Saving Money and Time
23 Analyzing the Crop Insurance Program
23 Transparency Leads to Equitable Pricing
26 Bringing Value to Customers
29 Esri’s Online Maps Offer Companies a Clear Picture of the Crisis in Japan29 Quick Access to Maps and Data
30 Making It Even Easier to “See” an Event
33 Making Place-Based Decisions in the Face of Catastrophe34 Providing Insurers with Place-Based Decisions
35 Partnering for the Best Solutions
36 Esri Resources
Table of Contents
3GIS for InsuranceGIS for Insurance February 2012
Insurers know that to be successful they must offer the products
and services customers need at the right price. Insurance has a
strong geographic component, from managing the addresses of
policyholders to the location of risk to the logistics of handling
claims. This is where GIS can benefit you the most.
Esri’s GIS software allows you to address these challenges with
geographic analysis in
• Underwriting
• Reinsurance
• Corporate governance
• Sales and marketing
• Claims handling
• Customer service
Location intelligence, such as knowing where assets are located
and their proximity to hazards, is vital when developing risk
profiles. GIS provides tools that allow users to combine location-
based data, such as vegetation density, road access, and traffic
flow patterns, to make more informed decisions. Whether you
are identifying a driver’s route to work or locating a building,
GIS offers a more complete and accurate picture of risk. This
information helps insurers meet the needs of their customers.
Following a major catastrophe, locating policyholders can be
a challenge if historical landmarks or directional markers are
no longer present. Claims organizations using GIS are able to
evaluate the impact on their policyholders to expedite services
where needed.
Identifying potential claimants, balancing workloads, and adjuster
routing are tasks that can be performed using GIS. Armed with
GIS-enabled mobile devices, adjusters can efficiently locate
customers and collect important details needed for settling
claims. This results in improved customer service, faster and more
accurate decision-making tools, and a more responsive claims
support process.
In today’s competitive market, understanding who your
customers are and their proximity to hazards ensures you are
offering the right products and services to fit their needs. Being
able to map your policyholders and analyze demographics
exposes patterns and behaviors that were previously concealed.
GIS for Insurance
GIS for Insurance February 2012 4GIS for Insurance
Product development strategies and internal sales tracking
benefit from detailed geographic analysis combining many
data sources and market assessment tools. The result is a more
targeted and strategic approach to your sales and marketing
efforts.
5Grabbing Hurricane Irene by the TailGIS for Insurance February 2012
Because of the millions of people in its path along the East Coast
of the United States, the wrath of Hurricane Irene turned into a
major news story this past August.
The 2011 Atlantic Ocean hurricane season in the United States,
which was more active than normal, also churned up Arlene, Bret,
Cindy, Don, Emily, Franklin, Gert, Harvey, Katia, and 10 other
storms.
Hurricanes and other natural disasters caused more than $265
billion in damage globally during the first half of 2011. While
emergency response and government organizations play
important roles in responding to these disasters, in many cases,
it is insurance companies that cover the costs of rebuilding
people’s houses and businesses. Insurers must understand the
risk associated with the policies they cover and ensure that they
can pay claims when submitted.
Esri writer Karen Richardson interviewed Mark McCoy, the
insurance industry solutions manager for Esri, about how GIS data
and mapping technology is being used to plan for events like
hurricanes to help people rebuild their lives after a catastrophe
occurs.
Richardson: Why is location intelligence so important in the
insurance industry?
McCoy: Understanding the likelihood—
or, as they say in the insurance business,
the risk—that an event such as a
hurricane, flood, or earthquake could
occur and damage property or harm
people is at the heart of what insurers
do.
Understanding risk at a given location
has two primary benefits. First, insurers
can use this information to make certain
their customers are as safe as possible
(think about trimming brush and trees
around houses and other structures in
burn areas) and that they carry the appropriate coverages for any
catastrophe that might affect that location. Second, insurers can
accurately rate the risk to ensure they are collecting appropriate
premiums for the losses that are likely to be incurred.
Location intelligence helps insurers better understand how to
respond to customers by tracking, ahead of time, the severity of
Grabbing Hurricane Irene by the TailInsurers around the World Use Interactive Mapping and Modeling to Understand Impacts of Hurricanes and Other Disasters
Esri's Mark McCoy explains how ArcGIS helps insurers monitor catastrophic events such as hurricanes, floods, and wildfires.
GIS for Insurance February 2012 6Grabbing Hurricane Irene by the Tail
an event such as a hurricane. They can view information about
the storm conditions, along with policyholder concentrations in
the affected areas. This allows carriers to make timely decisions
to ensure they have adequate resources available to service their
policyholders at a time when they are needed most. Hurricane
Irene, which caused severe flooding and wind damage in states
such as New Jersey, New York, and Connecticut last August,
exemplifies why it is important to know the exact location of both
insured properties and storm intensity. The insured loss for that
natural disaster will likely be more than US$2 billion. That means
there will likely be hundreds of thousands of claims to process.
Knowing where policyholders are located and the specific path
of the hurricane, insurers can accurately identify customers in the
areas that were impacted by Irene. This is important, because
claim severity—the monetary amount of the claim—can vary
significantly depending on the intensity of the storm at the
location of each claim.
Irene is a great case study. The hurricane’s intensity varied as it
progressed across the northeastern United States, dissipating
from a category 1 hurricane when it made landfall near Cape
Lookout, North Carolina, to a tropical storm as it moved inland to
New York, New Jersey, and Connecticut. In North Carolina and
Virginia winds were strong enough to cause significant structural
damage to homes. In parts of the Northeast, including New
Jersey, New York and Vermont, winds were relatively weak but
flooding caused substantial damage. In states like Rhode Island,
Massachusetts and Connecticut there were significant volumes of
minor claims from food spoilage and tree debris removal. Being
able to determine exposures in different areas as well as knowing
the likely severity of the damage allows insurers to proactively
plan for potential claims volume and ensure they have resources
with adequate training available to assist with the influx of claims.
Richardson: What is the best way for insurers to integrate
location information into their claims workflows?
McCoy: Many insurers use ArcGIS Online, a cloud-based
geospatial content management system from Esri that anyone Viewing wind speed on a map helps insurers monitor how much they must pay based on the intensity of the storm at each location.
GIS for Insurance February 2012 7Grabbing Hurricane Irene by the Tail
can use to create and share geographic content and build
applications, then share them at no cost.
ArcGIS is also used on servers, desktops, and mobile devices
at insurance companies to create applications that staff can
use throughout their organizations. Tracking real-time events
like Hurricane Irene and viewing geocoded policy locations
simplifies and improves the accurate identification of customers
in impacted areas. Insurers use this information to call on
policyholders that may have experienced losses, provide
immediate assistance including hotel vouchers and rental cars,
and calculate what their exposed loss may be in real time.
Richardson: How do insurance agencies incorporate mapping of
real-time events such as hurricanes into their claims management
process?
McCoy: Amica Mutual Insurance, an insurer headquartered
on the East Coast, uses real-time weather warnings brought in
as a service to ArcGIS. (Read this article about Amica’s use of
ArcGIS). These weather warnings include radar loops that display
the strongest parts of the storm. This allows claims managers to
Viewing claims on a map allows insurers to proactively plan for the volume of potential claims and ensure they have staff with adequate training and other resources available to assist with an influx of claims.
GIS provides analysis and oversight for insurers. Using this custom-built dashboard, they could view the status of claims after the Texas wildfires.
GIS for Insurance February 2012 8Grabbing Hurricane Irene by the Tail
see, as the event is happening, which policy locations the storm
has affected. By viewing this on a map, the path of destruction
becomes very clear, very quickly.
Once the storm has passed, the insurer’s staff plots claims on a
map, as they are reported, using ArcGIS. This immediately gives
claims managers the precise areas of damage to decide what
resources they need to help their policyholders and quickly start
the claims process.
Richardson: In many instances, catastrophic events that cause so
much insured loss are insured by reinsurers. Do they use location
and GIS to help with their claims management process as well?
McCoy: Absolutely. Reinsurers provide insurance to insurance
companies. Using ArcGIS Online for cloud-based mapping and
analysis, it is easy to connect with clients around the world and
share data and analysis.
Willis Re, one of the largest reinsurers in the world, uses ArcGIS
to do exactly this. Willis Re’s clients, insurance companies, log on
to its system, called eNCOMPASS Online, to visualize all policies
that were affected by a catastrophe such as Hurricane Irene.
After Willis Re’s clients find and select those polices, descriptive
information, such as the property owner and the value of the
policy, can be viewed and analyzed further if necessary.
Richardson: The use of social media during disasters like
Hurricane Irene has received a lot of media attention lately.
Do insurers use social media to assist with their catastrophe
response?
McCoy: We are living in a time of unprecedented information
availability. Insurers used online interactive maps provided by Esri
or created their own on ArcGIS Online during Hurricane Irene.
Willis Re is again a great example. They have been pioneers
in mapping social media and making crowd sourced data
actionable.
Willis Re's eNCOMPASS Online allows clients to map social media, making crowd-sourced data available for quick analysis of what is happening near their policyholders.
GIS for Insurance February 2012 9Grabbing Hurricane Irene by the Tail
ArcGIS allowed them to view social media posts in conjunction
with frequently updated storm tracking information from weather
services and earthquake activity from the USGS. Alongside
detailed local street and topographic maps, this provided a
new way to assess local conditions in the wake of major tropical
storms and earthquakes across the globe during 2011. By
turning on the geolocation feature of social media platforms like
Facebook, Twitter, Flickr, and YouTube, people can annotate their
posts with exact locations. While one or two of these posts may
not be alert worthy, a large number coming from one location
can indicate that there is a severe problem or many people are
affected. A scattering of many posts distributed across a vast
location can be analyzed by creating a heat map in ArcGIS of
those posts, which can more easily display clusters of information
for quicker analysis. Using this information, insurers might better
prepare field crews to respond to situations such as impassible
roads, power failures, or other issues that may affect their service
to clients.
Richardson: Do you expect that the trend of using mapped
information to more quickly and accurately process claims will
continue?
McCoy: Yes, I do. Applications like ArcGIS Online provide
an analysis and oversight solution for insurers. ArcGIS Online
combines authoritative data from storm track modeling and
weather services with social media to provide a complete picture
of the widespread impacts of natural disasters. The insurance
industry can use the most up-to-date information, historical data,
and what-if analysis to understand and manage exposure while
providing better service to its clients.
Visit esri.com/insurance to learn more about GIS for insurance.
(This article originally appeared in the November 2011 issue of ArcWatch
e-magazine.)
10Storm ChaserGIS for Insurance February 2012
Because many Amica Mutual Insurance policyholders owned
homes or other property in the path of Hurricane Irene, the
company wanted to ensure that it had adequate resources to
provide services when these people needed them most. Amica,
a provider of personal insurance for autos, homes, and boats, is
headquartered in Lincoln, Rhode Island. Known in the industry
for its high standard of customer service, the company has been
awarded several J.D. Power and Associates customer satisfaction
awards.
Amica monitored Irene last summer as the hurricane moved
up the East Coast of the United States, using real-time
weather warnings from the National Oceanic and Atmospheric
Administration (NOAA). This information, which included live
radar loops focused on the strongest parts of the storm, was
brought into Esri’s ArcGIS Online as map services, a standard
way to view location-based information on the web. By viewing
live data streams and comparing them with internal policy data,
Amica personnel were able to watch the storm in real time and
quickly identify which areas were likely to generate the most
claims.
Storm ChaserAmica Mutual Insurance Maps Real-Time Data, Providing Better Service to Policyholders
By Karen Richardson, Esri
Amica used ArcGIS to track Hurricane Irene and view forecasted wind speeds from the National Oceanic and Atmospheric Administration's NowCoast Web Map Services. This map displays the storm one day prior to making landfall in North Carolina.
GIS for Insurance February 2012 11Storm Chaser
Before their eyes, the path of destruction passed through
North Carolina, Virginia, and all the way up the East Coast.
“Our exposure along the forecast track was significant, and we
immediately knew this would be a big event for us,” said Adam
Kostecki, a claims examiner in the Property Loss Division at Amica
Mutual Insurance.
When tracking Irene, Kostecki combined real-time event tracking
and geocoded policy locations displayed in ArcGIS. Taking a
NOAA map service that forecasted wind speed and creating it
as an ArcGIS web mapping service (WMS), Kostecki was able to
input where Hurricane Irene was moving in real time on a map,
along with Amica’s plotted policies. He and other personnel drew
lassos around policies in the areas they were interested in. The
lasso Select tool allowed Amica staff to select multiple policies
in contiguous areas without being restricted by administrative or
geographic boundaries. Combining both datasets—wind speed
high enough to cause damage plus policies in the area—Amica
found out the number of policies that might be at risk.
By viewing the policy locations along with the area of impact,
Kostecki could find out exactly which policies were in the path
of the event and generate reports for claims adjusters quickly.
“Simply by viewing and exploring the data in ArcGIS, I simplified
and improved the accurate identification of customers in
Hurricane Irene’s impact area,” said Kostecki.
For insurers, knowing precisely where damage has occurred is
paramount in developing a timely and appropriate response. The
quicker an insurer can respond to claims, the faster people can
rebuild and continue on with their lives. Being able to determine
exposures in different areas, as well as knowing the likely
severity of the damage, allowed the Amica claims department
to proactively plan for potential claims volume. “Once Irene
passed, we plotted claims as they were reported,” said Kostecki.
“Waiting days for first-responder reports, damage models, or
even post-event aerial imagery just isn’t an option anymore when
responding to catastrophes.”
Knowing how many policyholders might be affected helped
Amica better determine how many adjusters were needed and
where they should be sent after Hurricane Irene passed. From the
information gathered in ArcGIS, the staff was able to generate
a quick summary and export the information into a report. This
information provided a better picture of how many claims Amica
might need to respond to in a certain geographic area.
“We had a much better idea of what our claim potential was going
to be after this event,” said Kostecki. “And even better, we had
this information ready to go hours after the storm.”
Amica implemented the use of GIS in claims about five years
ago, in order to better estimate the company’s exposure after a
catastrophic event such as a hurricane, earthquake, wildfire, or
tornado. Knowing this information helps Amica ensure that it is
GIS for Insurance February 2012 12Storm Chaser
appropriately staffed to handle the volume of claims that might
be reported. Since implementing GIS technology, Amica has
realized that pushing this technology to the front lines could
have a profound impact on the way it services its policyholders.
Kostecki explained, “It’s a technology that our staff embraces—
because it makes their jobs easier, and it allows them to be more
efficient.”
For more information on how ArcGIS is used in the insurance
industry, visit esri.com/insurance.
(This article originally appeared in the November 2011 issue of ArcWatch
e-magazine.)
13Putting the Pieces Back TogetherGIS for Insurance February 2012
Highlights
• Using ArcGIS, insurance risks in a tsunami zone can be easily
identified.
• GIS can help brokers find all the Flickr posts within 100 meters
of an insured property.
• eNCOMPASS Online streamlines policy data capture to
include addresses, not just postal or ZIP Codes.
A string of natural catastrophes since January 2010 has cost the
insurance industry billions of dollars worldwide and has forced
insurers and reinsurers to reevaluate their risk management and
claims response processes. Willis Re, headquartered in London,
England, serves the risk management and risk transfer needs
of a diverse, global client base that includes all the world’s top
insurance and reinsurance carriers, as well as national catastrophe
schemes in many countries around the world.
Following the magnitude 9.0 earthquake that rocked Japan on
March 11, 2011, and set off a tsunami, Willis Re quickly went to
work gathering critical information for its insurance clients. Using
an online system called eNCOMPASS, Willis Re provides data on
policies and hazards and other related spatial information to its
clients to view and analyze. In turn, insurers use the information
to understand clients’ needs, analyze potential insured losses,
and pay out claims.
Preparing for the Worst
Willis Re’s core focus is to provide insurance companies with
a superior understanding of the risks they face. When the
organization anticipated that a large number of hurricanes would
make landfall last year, it was inspired to build eNCOMPASS
Putting the Pieces Back TogetherFrom Crowdsourcing to Tsunami Zones, Willis Re Relies on GIS for Accurate Event Response
Willis Re's eNCOMPASS Online includes data that covers major perils worldwide, including live feeds like this tropical storm tracker.
GIS for Insurance February 2012 14Putting the Pieces Back Together
to estimate the potential impact of large tropical storms and
exposure for clients.
Willis Re’s clients can conveniently log on to eNCOMPASS Online
from anywhere in the world and quickly visualize all policies for
locations in the path of a storm. Once the affected policies are
selected, all the descriptive information associated with those
policies becomes available for further analysis and action. Using
this data, loss adjusters, as well as the policyholders themselves,
are contacted, ensuring that response and customer service are
accurate and timely.
The software on which eNCOMPASS is built is ArcGIS, which was
chosen following a deliberate and intense review of potential
technologies.
Willis Re is one of the first in the insurance business community
to understand and implement a solution that integrates all levels
and supports open access, collaboration, and transparency. It is
able to do this because it has access to authoritative data and
can create high-quality maps that support visualization, spatial
analysis, and models through a rich application.
eNCOMPASS Online includes data that covers major perils
worldwide, from flood zones in Latin America to earthquakes in
New Zealand. Willis Re staff use live feeds for real-time or near
real-time information on events. For example, the United States
Geological Survey (USGS) live feed is used to display recent
significant earthquake activity around the globe.
Events Increase Data Appetite
When the earthquake and subsequent tsunami hit Japan, Willis
Re staff derived a bespoke—or custom-made—estimated
representation of the tsunami zone using GIS geoprocessing,
a digital elevation model (DEM), and ground observations.
The DEM was derived from Advanced Spaceborne Thermal
Emission and Reflection Radiometer (ASTER) sensors. ASTER
provides remotely sensed terrain data that is easy to access
and of a reasonable resolution (30 m) and wide coverage. Land
elevation and slope were derived to analyze where inundation
from water would take place. This tsunami dataset was loaded in
eNCOMPASS Online soon after the event for analysis purposes.
Willis Re staff also provided earthquake ShakeMaps from USGS
and displayed this data on top of a world topographic map from
Esri.
One of the powerful analytic functions of the solution is the
tsunami impact footprint. Using a mapcentric view of risks in
a portfolio makes it much easier to identify insurance risks
impacted by the tsunami. Using ArcGIS, risks in the tsunami zone
can be easily identified, extracted, and exported for offline loss
estimation.
Finding the correct location of policyholders was more difficult.
Often, insurance companies hold policy data aggregated in
various levels, such as administrative boundaries. Instead of
providing point data for each policy at the street address level,
GIS for Insurance February 2012 15Putting the Pieces Back Together
many insurers only hold policy location information by postal
codes, counties, or municipalities. This is often true in Japan, as
well as many other countries. Poor addresses are the result of
incomplete data capture, poor addressing systems for a particular
country, or perhaps high purchase costs for geocoding to high
resolution in a particular country. While many insurers believe that
the cost of creating the geocodes surpasses the benefit of doing
so, not providing accurate address-level information means that
there is not much to work with when estimating damage. Willis
Re worked with clients in Japan to find the most accurate location
information it could. Coupled with data on flood inundation,
Willis Re was able to begin providing the services required to
assist people in rebuilding their homes and businesses. Next
time, hopefully, the process will be easier.
After the various catastrophes this year, Willis Re observed an
increase in the appetite for better address data to use in tools,
such as eNCOMPASS Online, to facilitate decision making.
Insurers have begun capturing policy data, including the address,
not just a postal or ZIP Code, and passing this up to the broker.
Nigel Davis, executive director of product development at Willis
Re, says, “Unfortunately, a disaster tends to emphasize the
importance of having better data.”
Remote Sensing Versus Near Sensing
Another aspect assisting in collection of more accurate data
is a phenomenon called volunteered geographic information.
“Suddenly, we have all these people on the ground who
are connected by virtue of their personal devices: laptops,
smartphones, digital assistants—you name it,” says Davis.
“Instead of remotely sensed data, we are getting ‘near-sensed’
data from people who are using social media to report on events
as they happen via text messages or photos they take on the
ground.”
If these on-the-scene reports contain a location—and many
do—this information can be harnessed. Location-aware social
networks have a huge potential to enable people in a community
Visualizing social media posts allows insurers to get reports on events as they happen.
GIS for Insurance February 2012 16Putting the Pieces Back Together
to help themselves during a crisis. Spatial analysis makes
crowdsourced data actionable. While one Flickr, Twitter, or
Facebook post may not be critical, if there are many posts, a heat
map from data collected on the ground pertaining to property
damage, hazards, evacuations, power outages, and help and
services can be collected from the best source of data—those
affected. Visualizing this data as hot spots or trends gives an
idea of the density of reports coming from a single area. This can
assist in allocating resources to those who need the help most or
aid the validation of whether incidents reported are corroborated
by others, adding increased clarity to a situation. More than just
dots on maps, hot spots organize lots of data and quickly provide
a better understanding of the data. Reports can also be filtered
by date to see daily trends. Providing this information in a spatial
context can connect individuals and optimize the use of trained
resources.
“GIS can help brokers find all the Flickr posts within 100 meters
of an insured property, for example, to get real understanding of
damage and claims from those actually in the area,” says Davis.
From Crowd to Cloud
The Internet is a natural platform for geospatial analysis. Many
participants can easily move from data sharing to creating shared
services in this environment. The technology makes it possible:
collaborative computing, service integration, mashups, user-
contributed content, and distributed data management are some
of the many ways that access has been opened to many new
users and applications. While the technology opens the gates,
it takes more than technology to create applications that are
useful. Access to authoritative data and committing the platform
resources allow communities to use the technology in the manner
they need to accomplish their tasks.
For more information, contact Nigel Davis, executive director,
Team Leader Platforms and Delivery, Global Analytics, Willis Re
(e-mail: [email protected]), or visit www.willisre.com/Risk
_Quantification/Risk_Management/Analytics. To learn more about
how GIS helps insurers, visit esri.com/insurance.
(This article originally appeared in the Winter 2011/2012 issue of ArcNews.)
17Counting on RiskGIS for Insurance February 2012
Highlights
• ArcGIS Server helps analysts evaluate the risk of fire peril and
provide the data for FIRESAFE.
• ArcGIS and Microsoft SQL Server help maintain very large
databases with millions of records.
• ArcGIS Server creates, manages, and distributes Explore’s GIS
services over the web.
To build insurance pricing models that are equitable and fair
depends heavily on accurate location-based information. Insurers
need solutions that effectively organize, manage, and analyze
extremely large datasets that can be used to measure risk. These
include such information as proximity to hazards and emergency
services, traffic patterns, commute routes, assets, and crime.
The intelligence gained from analyzing all these factors, along
with the location of a policy or claim, means better pricing
methodologies for the insurance industry.
Based in Eagan, Minnesota, Explore Information Services
aggregates, analyzes, and delivers location-based risk
intelligence to insurance carriers in the United States. For more
than two decades, the company has built online solutions that
are integrated into insurance underwriting and rating workflows.
Explore’s solutions help insurers reduce expenses and better
align the price of each policy to actual risk exposures using,
among other factors, the location of the policy. “GIS allows us to
quickly organize a vast amount of location-based data for more
accurate modeling,” says Deric Morgando, senior GIS and data
acquisition analyst from Explore.
The first solution Explore created using GIS and models was the
automated fire protection information service FIRESAFE (www
.exploredata.com/firesafe.aspx). FIRESAFE organizes and analyzes
data Explore has gathered about fire stations across the United
States, including personnel, staffing, equipment capabilities, and
jurisdiction boundaries. From this analysis, Explore produces
emergency response times to the location of the property and
performs the corresponding risk analysis.
“As we added data for fire stations from across the country, the
analysis started to get pretty complex,” says Morgando. “It
became readily apparent that our previous in-house solution was
not capable of managing the task.”
Counting on RiskInsurance Underwriters Turn to GIS for More Accurate Risk Analysis
GIS for Insurance February 2012 18Counting on Risk
Pushing the Limits with GIS
Morgando had previous experience with ArcGIS software. “I
learned the software while working on my master’s at Southern
Illinois University,” he says. “I knew the capabilities of the
software and that Explore could really benefit from its open
environment and analytic capabilities.”
Morgando came to Explore from Ducks Unlimited, an
organization that leads the charge in wetlands and waterfowl
conservation. While no longer analyzing wildlife habitats,
Morgando’s premise for working with geospatial data is the same
at Explore: to understand a subject’s location and the effect of
its surroundings. Today, he applies this knowledge to manage
a team of GIS professionals who provide spatial modeling
throughout Explore.
Morgando now uses ArcGIS Server and Microsoft SQL Server to
create and maintain FIRESAFE. ArcGIS Server can create, manage,
and distribute GIS services over the web to support desktop,
mobile, and web mapping applications. ArcGIS Server helps
analysts evaluate the risk of fire peril and provide the data for
FIRESAFE. Depending on the solution, hundreds of attributes are
assigned to a particular location and analyzed, then risk scores
are assigned. Using ArcGIS and Microsoft SQL Server, Morgando
works with very large databases, many containing millions of
records. “We’ve really pushed the limits of Microsoft SQL Server,”
he explains.
After integrating ArcGIS into FIRESAFE, Explore built additional
solutions including Auto Location Insight. Auto Location Insight
helps insurance carriers assess location-based risk for automobile
policyholders derived from their garaging address and the likely
commute routes in the area. Analysis is done with ArcGIS Server
and Esri StreetMap Premium—a dataset from providers and Esri
Partners NAVTEQ and Tele Atlas.
A national fire station GIS map output.
GIS for Insurance February 2012 19Counting on Risk
Street addresses are converted into spatial data that is displayed
on a map; analysis can then be run against that data to find the
shortest or fastest distance between locations. The commute
time is highly accurate due to the information provided with
the street networks. Historical traffic data, such as the average
travel speed for roadways to create more accurate arrival time
projections and avoid congestion based on day and time, can be
applied to the modeling.
The solution provides a more accurate risk assessment by using
the actual address rather than by modeling traditional ZIP
Code-level territories. Additional georeferenced data can be
analyzed, including traffic, weather, and crime. Morgando’s staff
has achieved higher levels of accuracy with ArcGIS Server and
StreetMap Premium.
“What I really like is the fact that I can work with a combination of
data from more than one provider and build my own geocoders
from so many different sources,” says Morgando. “We’ve worked
with up to 20 different geocoders at a time, which has minimized
the number of unmatched addresses.”
Advantages Found in Data Accuracy
Explore’s solutions help insurance carriers fine-tune premiums
to maximize their profitability. “We’ve experienced significant
growth in our business over the last few years. Nearly two-
thirds of the top 100 insurance carriers rely on our solutions to
effectively price the products they sell,” Morgando says.
Ironically, Explore’s clientele, insurance carriers, don’t even see a
map. Most of Explore’s GIS work is done on the back end of the
solutions it provides. Explore’s actuarial staff takes the geocoded
information that is created and implements it into the company’s
predictive analytics solutions. The end result is delivered to the An example of a FIRESAFE report.
GIS for Insurance February 2012 20Counting on Risk
customer in various forms, such as a table with risk scores that
carriers use to more accurately price their policies.
With GIS, Explore’s service to customers has also increased.
Before switching to ArcGIS, the entire process of updating,
rebuilding, and republishing street networks to analyze policies
required the system to be taken offline each quarter. This could
take the time equivalent to one full-time employee’s work for a
month. Now, the entire process takes less than two days.
Morgando has been able to spread the use of GIS and geospatial
data throughout Explore. While the ease of using an open
environment like ArcGIS has opened the door to GIS use
throughout the organization, Morgando’s insight and expertise
have helped other teams implement the technology in their
solutions.
For more information about Explore, contact DeLonn Crosby,
marketing director, Explore Information Services (tel.: 651-405-
4272, e-mail: [email protected]) or visit www
.exploredata.com. To learn more about how GIS is used in the
insurance industry visit esri.com/insurance.
Other companies and products mentioned herein may be
trademarks or registered trademarks of their respective
trademark owners.
(This article originally appeared in Spring 2011 issue of ArcNews.)
21Insuring America’s FarmlandGIS for Insurance February 2012
Highlights
• GIS helped RMA save $20 million a year and lower premiums
for regular rated land.
• In cases of suspected fraud or abuse, the agency uses
imagery to examine a producer’s crop and reconstruct the
growing season.
• RMA uses GIS to drill down past the county designation to
evaluate designated subcounty insurance offers.
The United States Department of
Agriculture’s (USDA) Risk Management
Agency (RMA), based in Washington,
D.C., helps food producers manage their
business risks through effective market-based risk management
solutions. As part of this mission, RMA manages the Federal
Crop Insurance Corporation (FCIC) to provide American farmers
and ranchers with crop insurance. RMA develops and approves
the premium rate, administers premium and expense subsidies,
approves and supports products, and reinsures the private-
sector insurance providers through the Standard Reinsurance
Agreement. In crop year 2009, RMA managed nearly $80 billion
worth of potential liability.
Insuring America’s FarmlandThe USDA’s Risk Management Agency Uses Actuarial Maps for More Equitable Premium Pricing
The United States Department of Agriculture Risk Management Agency (RMA) uses forensic remote sensing to examine the growing conditions, crop health, and vigor within fields.
GIS for Insurance February 2012 22Insuring America’s Farmland
FCIC relies on actuarial maps for crop insurance to designate
different areas within a county that have varying amounts of risk
due to factors such as flooding or highly erodible soil based
on type. These maps are used by 16 private-sector insurance
companies that sell and service FCIC policies. While RMA has
been using hard-copy actuarial maps for decades, it had no way
to validate whether an agent or insurance company was reporting
accurate claims or the claims reported were in the correct areas.
Inaccurate reporting skews the adjustment of the risk rate for
producers and can create unnaturally high premiums in areas
where it is not necessary. Because of this, RMA incorporated GIS
to manage the information and analyze the program. Using GIS
has helped RMA save $20 million a year and lower premiums for
regular rated land, which in turn reduces the government subsidy
on insurance across all acreage.
Saving Money and Time
Since most federal agencies are standardized on Esri software
and data formats, RMA chose to incorporate Esri software in
the early 2000s to begin the FCI-33 Actuarial Map Digitizing
Project to convert hard-copy maps, using aerial photos and USDA
Common Land Unit data, into GIS. This process took several
years, and at the end, RMA’s 10 regional offices digitized more
than 1,500 maps into shapefile format.
Managing such a large number of digital maps was difficult,
prompting USDA to upgrade to ArcGIS when it was released
and use a personal geodatabase to manage the digital files. The
geodatabase allowed it to aggregate the maps into 10 more
manageable feature classes instead of the 1,500 stand-alone
maps. In 2008, RMA upgraded to ArcGIS Server, which allows
it to more easily share the data throughout its regional offices
using a central server without keeping copies of maps on regional
office computers.
RMA uses the digital actuarial maps to cross-check and approve
maps generated by the regional offices. “The ability to validate
these automatically instead of by hand has saved us so much
time,” says Greg Oetting, risk management specialist,
USDA-RMA, Topeka Regional Office.
The actuarial maps for 2010 and previous years are published as
PDF files on the Internet for the insurance companies to view. In
2011, RMA rolled out an interactive map viewer that is hosted
publicly. Insurance companies have access to the data and can
host it internally. “This will be a real time-saver to RMA,” says
Oetting. “Creating the map viewer means we don’t have to
spend time and man-hours building out and proofing 1,500
individual PDFs.”
GIS for Insurance February 2012 23Insuring America’s Farmland
Analyzing the Crop Insurance Program
Over the last few years, RMA has been incorporating more
satellite imagery into the program. “A majority of the maps we
create are located in flood-prone land, which has a higher risk
than any other insurance peril,” states Oetting. Unlike a Federal
Emergency Management Agency map, however, where land is
designated as a flood risk or not, RMA is interested in whether
a certain land floods only during the specified growing season.
Floods that occur in the winter months on a producer’s land won’t
have any impact on the insurance policy for crops planted in the
spring because the land is not being used for crops at that time.
Satellite imagery provides a good source to find the extent
of floods. “Flooding near major rivers like the Mississippi and
Missouri are easy to determine,” says Oetting. “But it’s harder
to determine flood extent and frequency on smaller tributaries.
Using GIS to overlay satellite imagery provides an accurate visual
of where exactly the flood happened.” RMA can check areas that
might be designated as high risk when, in reality, they weren’t
flooded during the actual growing season.
GIS is also used to update maps quickly and help RMA with the
appeal process. If a producer doesn’t agree with a particular
rating class, he can appeal it. For example, a producer may argue
that the land he is cultivating is not flood prone. The ability to
pull up satellite imagery for the day the river was at its highest
during the year and see that, in fact, there was no water on the
producer’s land allows RMA to rectify the misclassification.
Transparency Leads to Equitable Pricing
Having the maps standardized across the country also helps
with creating fair and equitable pricing and makes the process
transparent to the producers. RMA has created handbooks for
each office so it can standardize editing performed on maps.
This is important, since where crops are physically located
dictates the type of coverage farmers are offered. Insurance
The RMA Actuarial Information Browser map viewer is used by farmers, crop insurance agents, approved insurance providers, and RMA to view insurance offers at a subcounty level.
GIS for Insurance February 2012 24Insuring America’s Farmland
offers are based on the crop yield for a particular parcel of land.
This information is garnered from the producer’s production
history, the harvest-time futures price set at a commodity
exchange before the policy is sold, and the type of crop planted.
The policy will pay an indemnity if the combination of the actual
yield and the cash settlement price in the futures market is less
than the guarantee.
Using GIS to drill down past the county designation, RMA can
designate subcounty insurance offers that are considered high
risk, which excludes the insurance history from the calculations
that are used to determine the premium rates for the entire
county. The end result is a premium rate decrease for most
producers, as more high-risk acreage gets reported correctly.
In the past, reviewing premium rates involved colored pencils
and large pieces of construction paper on which RMA staff would
manually write down all the components of the premium rate by
county. Now, GIS can be used to thematically map areas and look
for the anomalies. For example, if rates are going down all over
Kansas except one county, RMA can not only see the discrepancy
quickly but also investigate why. “Trying to answer the why was
impossible before,” says Oetting. “We would have to find all the
documents and papers and then send someone out for a manual
check just to chase down the answer. With GIS, everything is
linked and very easy to find.”
In cases of suspected fraud or abuse, RMA uses imagery to
examine a producer’s crop for a particular time frame and
reconstruct the growing season. Using imagery allows RMA to
perform, in essence, forensic remote sensing at any location to
see what actually happened on the ground. RMA can pull up the
imagery and overlay the digitized map of the farm field boundary.
RMA agents can see if the land has been planted as the producer
said it would. Since images are captured every 16 days, gathering
this visual evidence is important because it provides the evidence
needed in a sound, scientific protocol.
“The vast majority of farmers follow the rules,” says James Hipple,
PhD, physical scientist, USDA-RMA, Office of Strategic Data
Acquisition & Analysis. “Remote sensing and GIS are part of the
toolbox RMA utilizes in creating an actuarially sound agricultural
safety net for America’s producers while simultaneously
Using its rate review mapping tool, RMA can easily visualize how rating components flow across the nation.
GIS for Insurance February 2012 25Insuring America’s Farmland
minimizing the amount of fraud, waste, and abuse in the
program.”
For more information, contact RMA’s External Affairs office at
(This article originally appeared in the Spring 2011 issue of ArcNews.)
26Bringing Value to CustomersGIS for Insurance February 2012
“You truly realize the relationship between a big
ocean and a tiny house when seeing them on a map.”
—Manny Rios, USAA
The seventh annual Esri Business GIS Summit kicked off on
Sunday, July 11, 2010, with presentations, sessions, and a social
for a crowd of enthusiastic attendees. Esri’s Karen Richardson
sat down with one of the keynote speakers for the summit—
Manny Rios, a senior vice president for Property and Casualty
Underwriting at United Services Automobile Association (USAA)—
to discuss his vision of GIS.
Esri: Please tell me a little bit about USAA.
Rios: The company started humbly in 1922, when 25 U.S. Army
officers in San Antonio, Texas, established their own auto
insurance association, USAA, because auto insurers considered
military service personnel too great a risk. Today, USAA is a fully
integrated financial services provider, offering a wide range of
investments, banking, insurance, and financial advice to all who
have ever honorably served and their families.
USAA strives to understand and anticipate the needs of its
members and continually develops innovative solutions to
make their lives easier. Throughout its history, the association
pioneered the use of direct mail, automated policy administration
systems, and 1-800 and satellite communications. Today, USAA is
a leader in mobile phone applications for banking, insurance, and
investment transactions and in 2009 became the first to permit
customers to deposit checks with a smartphone camera.
Bringing Value to CustomersUSAA Champions GIS through Its Enterprise
GIS for Insurance February 2012 27Bringing Value to Customers
Esri: So, the use of GIS technology is one of your next big
things?
Rios: Absolutely. We’re always looking for new ways to enhance
member service, increase operational efficiency, and bring more
value to our membership.
Esri: How did you learn about GIS?
Rios: I first learned about GIS technology early in my career as an
underwriter. The idea of being able to see the precise location
of homes and their proximity to hazards such as flood zones or
wildfires was an exciting prospect. I was introduced to a whole
new way of using technology to understand risk management.
Throughout my career, I learned that GIS is best comprehended
with images. Visuals are more compelling storytellers than
spreadsheets or databases. You truly realize the relationship
between a big ocean and a tiny house when seeing them on a
map.
Prior to joining USAA, I served as chief underwriter at a property
insurance Internet startup company, and location is everything
when you’re only writing property insurance.
Esri: How did your understanding of GIS translate when you
came to USAA?
Rios: I like to motivate people and teams to take GIS to the next
level with a focus on member safety and loss prevention.
USAA seeks to help members anticipate and prepare for the
natural perils they may face around the country. Helping our
members understand what they’re up against and giving them
the tools and information to help them make informed decisions
was the answer.
USAA’s underwriting departments quickly adopted and
consistently demonstrated the effectiveness of GIS. I spoke
in terms of the immense benefits GIS would provide when
implemented, not if implemented.
GIS for Insurance February 2012 28Bringing Value to Customers
Esri: During your keynote, you spoke of GIS as being like kids’
building blocks—I think everyone can relate to that analogy.
Rios: I have blocks from more than 30 years ago and, you know,
if you buy blocks off the shelf today, you can use them with the
ones you had back then. That’s the thought around our own GIS
strategy. It’s an infrastructure that stands the test of time, just like
blocks, and today’s are really cool! One block at a time, we’ve
built momentum for GIS applications and garnered leadership
support at USAA.
Esri: You do quite a bit of work with other organizations
including the Institute for Business and Home Safety, Federal
Alliance for Safe Homes, and International Association of Fire
Chiefs. Can you talk about the work you are doing?
Rios: USAA is assisting in the development of programs that
help manage and minimize catastrophic loss. Additionally, USAA
now has a stake in making a broader difference through my
service on the board of the National Alliance for Public Safety
GIS Foundation. GIS technology represents a leap forward in
community preparedness to help solve some of our country’s
greatest emergency preparedness challenges.
Coordination among safety organizations and emergency
responders before, during, and after a crisis is paramount to
reducing risk and ensuring safety and property protection. GIS
can help public safety organizations and emergency responders
capture, manage, analyze, and view geographic images and data
and thus greatly improve their preparation and response.
Esri: What words of wisdom can you leave with other
managers and leaders in organizations interested in
spearheading an effort to engage with GIS technology?
Rios: It’s essential to help the leaders in your organization
understand that GIS gives you precision.
I strongly advise patience in building momentum. The more
people hear over time, the more they start to connect the dots.
Then all of a sudden, they’re saying, “Hey, when is this new
solution going to be done?” as opposed to “Will it get done?”
(This article originally appeared in the Fall 2010 issue of BusinessGeoInfo.)
29Esri’s Online Maps Offer Companies a Clear Picture of the Crisis in JapanGIS for Insurance February 2012
After a magnitude 9.0 earthquake rocked Japan on March 11,
2011, and set off a tsunami, the catastrophe risk modeling firm
EQECAT, Inc., headquartered in Oakland, California, quickly went
to work gathering information for clients.
Besides collecting economic and scientific data related to the
disaster, EQECAT needed digital maps that showed the tsunami
flood zones, where aftershocks were located, damaged areas
including roads, and the location of population centers in the
affected areas.
The maps were created by Esri staff using ArcGIS Online, a
platform anyone can use to create and share geographic
content and build GIS and mapping applications. Accessible via
ArcGIS.com, ArcGIS Online hosts maps, applications, and tools
published by the GIS user community that can be shared freely.
Quick Access to Maps and Data
EQECAT knows the power of seeing where natural disasters strike.
The consulting firm helps clients in the insurance, financial, and
commercial industries better understand the risk of earthquakes,
typhoons, and tsunamis so they can better manage their business
operations.
Just seven days after the earthquake struck the Japan Trench
megathrust fault off Honshu’s east coast, EQECAT was in action.
The company gathered staff and clients from around the world for
a report called a Catastrophe Watch, or CatWatch, that delved
into what occurred.
Esri’s Online Maps Offer Companies a Clear Picture of the Crisis in JapanBy Karen Richardson, Esri Writer
Satellite imagery provides a very quick and accurate sense of what happened on the ground after a catastrophic event, including where damage occurred. This image shows the location of impassable roads in Japan after the recent earthquake and tsunami.
GIS for Insurance February 2012 30Esri’s Online Maps Offer Companies a Clear Picture of the Crisis in Japan
Broadcast via a webinar, this report on the earthquake detailed
postevent effects including economic and insured losses. The
CatWatch was attended by primary insurers, reinsurance
agencies, brokers, corporations, hedge fund managers, and
investment firms that have business dealings in Japan. EQECAT’s
clients were provided with a comprehensive overview of the
event, in part due to the maps created using ArcGIS Online.
Simon Thompson, director of commercial solutions at Esri, and
Mark McCoy, Esri’s industry solutions manager for insurance,
created the maps based on a telephone conversation with Paul
Little, EQECAT’s head of planning and development, two days
before the CatWatch. Working quickly, Thompson and McCoy
produced maps displaying data on the tsunami flood zone, data
on Japan’s highways and major roads, topographic data, and
even population information from the Japan Society of Family
Sociology.
“Timely delivery of information immediately after an event is one
of the ways we create value for our clients,” said Little. “Providing
maps that give a general overview of an area and providing the
ability to drill down to get even more granular information is a
huge part of what we feel our clients need so they can begin
assessing the financial impact and make decisions on how to deal
with a crisis like this.”
Knowing EQECAT needed information quickly, Thompson
decided to pull together maps and data using ArcGIS Online.
“The power of ArcGIS Online is the fact that all the data and all
the template code is available to anyone who needs it,” said
Thompson. “To create these particular maps, I took a map
template shared on ArcGIS Online and edited it to display only
what I wanted. I then shared the maps over the Internet with
EQECAT staff, who in turn can share them through any browser
on a computer or a phone. That’s the power of ArcGIS Online
and cloud computing.”
By clicking the Share button, Thompson provided the maps he
created for EQECAT to anyone who wants to view them both
on ArcGIS Online and in map viewers such as Esri’s free ArcGIS
Explorer application.
“This is a prime example of operational GIS,” says McCoy. “It’s
providing data in real time while you are telling me what you
want to see. This intelligent map supports effective collaboration
by making a vast amount of aggregated knowledge easily
understandable to people who need the 30,000-foot level of
detail, like CEOs.”
Making It Even Easier to “See” an Event
ArcGIS Online hosts a repository of authoritative content from the
worldwide GIS community. Esri also provides published disaster
mapping applications so organizations can see the information,
identify their exposure in the impacted area, and plan effective
responses.
GIS for Insurance February 2012 31Esri’s Online Maps Offer Companies a Clear Picture of the Crisis in Japan
The Japan Trends Map is one example. Esri created this heat map
from data collected on property damage, hazards, evacuations,
power outages, and help and services available. Visualizing this
data as hot spots or trends gives an idea of the density of reports
coming from a single area. This can assist in allocating resources
to those who need the help most or aid the validation of whether
incidents reported are corroborated by others, adding increased
clarity to a situation. More than just dots on maps, hot spots
organize lots of data and provide a better understanding of the
data quickly. Reports can also be filtered by date to see daily
trends.
Besides Twitter, YouTube, and Flickr postings, Esri’s Japan Trends
Map supports reports from Ushahidi, a nonprofit technology
company that develops a social network to allow people to
report incidents via SMS, e-mail, or the web. The information
is categorized and analyzed using ArcGIS. By selecting Show
Reports, users can view individual Ushahidi reports. Public
content from Ushahidi is added to the site through direct access
to the Ushahidi Earthquake Tohoku service. This feed aggregates
information from the public for use in crisis response.
The Japan Trends Map has been used by many different
organizations, including those in the media, to provide
detailed information and analytic support to relief efforts.
This spatial analysis makes crowdsourced data like Ushahidi
reports actionable. “We’re able to model the disaster. How
many people are affected, and where are they?” Thompson
said. “By combining population data with elevation maps, relief
organizations can begin to calculate the number of people
affected by flooding. How many supplies, like food, water, and
temporary shelter, is just one thing that can be estimated to care
for those in need.”
Many organizations, including the media, have caught on to these
ready-made apps showing current events and are embedding
these to provide information to their constituents. “I love this kind
You can learn which population centers may be evacuated by viewing a map with various radiuses around Japan's nuclear power plants.
GIS for Insurance February 2012 32Esri’s Online Maps Offer Companies a Clear Picture of the Crisis in Japan
of content,” said Eric Gakstatter, contributing editor for survey
and construction for GPSWorld magazine. “I think this puts the
event in an entirely new perspective.”
(This article originally appeared in the May 2011 issue of ArcWatch e-magazine.)
33Making Place-Based Decisions in the Face of CatastropheGIS for Insurance February 2012
Late August 2009 brought with it the beginning of a volatile fire
season in California. For the last several years, damage to highly
developed, densely populated areas has become an unwanted
trend. In 2003, the Cedar Fire struck the San Diego, California,
area, torching more than 270,000 acres, killing 14 people and
destroying approximately 2,000 homes. Wildfire spread again in
San Diego nearly four years later, leaving behind 200,000 charred
acres, 515,000 evacuees, and approximately 1,500 destroyed
homes. The risk of bearing uninsured loss in a disaster today
is higher than it has ever been because of increased property
values and dense building; think of the hills of Santa Monica.
Insurers’ financial and regulatory obligations need to be met at
the same time their companies’ stability is ensured. Customers
also expect policy writers to handle claims effectively and make
things right. This makes insurance a high-stakes balancing act—a
competitive business with little margin for error.
As another blistering wildfire season comes to an end in
California, insurers looking for better ways to examine their
portfolios and manage losses incurred by their clients found relief
in solutions based on GIS. The technology can provide tools
to measure many different dimensions of risk and estimate the
severity and breadth of potential loss under several scenarios.
Insurers can make more informed decisions about the risk they
can carry by combining policy information with location-based
data such as vegetation density, road access, and maps down
to parcel level. Monitoring and assessing a portfolio through its
geography helps insurers be better prepared for disasters and
Making Place-Based Decisions in the Face of CatastropheHarnessing Esri’s GIS to Analyze, Predict, and Manage Risk for Fires and Other Disasters
By Simon Thompson, Commercial Business Industry Manager, Esri
Flames light up the night sky near Oak Glen, California. Photo/Brenda Martinez, Esri
GIS for Insurance February 2012 34Making Place-Based Decisions in the Face of Catastrophe
quickly confirm they have the appropriate reserves necessary to
assist their customers and protect their holdings.
Providing Insurers with Place-Based Decisions
Insurers like Balboa Insurance Group in Irvine, California, which
won a Special Achievement in GIS (SAG) award from Esri this year,
rely on GIS software to better prepare for disasters. Balboa has
been providing risk management and loss mitigation solutions
to financial institutions in the mortgage finance industry for more
than 20 years. If a collateralized property in a mortgage lender’s
portfolio is damaged, and the borrower does not have adequate
hazard insurance, Balboa provides the lender with insurance that
helps make money available to repair the property.
With the help of Esri’s ArcGIS Server software, Balboa’s financial
services clients can view maps of catastrophes and gauge
potential risks to their portfolios through a secured interactive
application available over the Internet called Catastrophe Viewer
(CATViewer). CATViewer allows lenders to see information by
viewing loan locations along with the geography of various
natural disasters.
Balboa’s experienced associates and advanced technology
are quickly mobilized after a catastrophe. The company’s
risk modeling team monitors multiple online and television
broadcasts of natural disasters around the country, posting
updates immediately to CATViewer and helping the claims
department respond to customers 24/7.
One of the most recent examples of GIS helping Balboa respond
quickly was during the Station wildfire that struck parts of La
Canada-Flintridge, northern San Fernando, Altadena, and
many other areas that border the Angeles National Forest. For
clients to assess their exposure to the event, Balboa created
a map of the then-current fire perimeter for the Station fire.
The map showed which loans within the fire boundary should
be considered at risk, allowing Balboa’s clients to prepare
The Catastrophe Manager Website keeps Balboa's financial services clients up-to-date during natural disasters.
GIS for Insurance February 2012 35Making Place-Based Decisions in the Face of Catastrophe
the appropriate paperwork and evaluate their loss potential
accurately. Fortunately few homes were lost in this particular fire,
but the ability to view the disaster as it was happening and run
‘what if’ scenarios on potential properties meant the lenders were
ready for any outcome.
Balboa enhances CATViewer with geographically based datasets
available through ArcGIS Online, a Web-based repository that
lets users easily share and find GIS data, maps, layers, services,
and tools. The company uses many different datasets from
ArcGIS Online, including satellite imagery, topographic maps,
and street maps.
The Balboa Catastrophe Modeling Team also monitors specific
catastrophes and gets data from organizations such as the
National Hurricane Center, National Oceanic and Atmospheric
Administration (NOAA), the U.S. Geological Survey (USGS), and
AccuWeather.
With this highly accurate data, Balboa’s clients can more precisely
map where loans are at risk because there’s a high probability
that the property will be damaged during a catastrophic event.
The technology gives Balboa clients the information to begin
asking themselves crucial questions:
• How likely is the risk of loss?
• How much overall monetary loss exposure is in the portfolio?
• How many loans are affected by a particular event?
• Does the borrower have enough insurance to cover the
damage caused by the catastrophe?
Lenders view data and show results of different property risks
including geographic concentrations, property values, and loan
values. Using CATViewer, Balboa’s clients apply risk and loss
calculations for more accurate assessments.
Partnering for the Best Solutions
Earlier this year, Esri and First American Spatial Solutions (FASS),
an industry leader in geospatial software, natural hazard analytics,
Clients can view loan locations along with the geography of various events.
GIS for Insurance February 2012 36Making Place-Based Decisions in the Face of Catastrophe
and property and tax information, announced the release of
Risk Analysis Solution for ArcGIS. Insurance companies can use
Risk Analysis Solution for ArcGIS to view and analyze data at the
policy and portfolio level, quickly assessing concentration of risk
and increasing and improving underwriting decisions.
Risk Analysis Solution for ArcGIS combines Esri’s GIS technology
with FASS’s advanced parcel-based geocoding, natural hazard,
and property location data for the United States. FASS’s parcel-
based geocoding, called ParcelPoint Technology, combines
parcel and address information with exact latitude and longitude.
Originally developed for use at FASS to provide extremely
precise flood information for lenders and insurers, this dataset
now includes 100 million parcels and is available through Risk
Analysis Solution for ArcGIS. Using the data will help eliminate
inaccurate results obtained when guessing the location of
properties by interpolating their positions on a street network.
Risk Analysis Solution for ArcGIS offers a powerful geospatial
solution that easily integrates into an insurer’s current workflows
and rapidly delivers accurate information. Users can assess
multiple-peril risks, generate composite risk scores, determine
probable maximum loss, understand risk concentration, and
generate detailed reports.
Esri Resources
Esri software, data, and services are used at the front lines
of catastrophes, including the recent Station, Oak Glen, and
Pendleton fires in Southern California. Tom Patterson, a wildland
fire specialist for Esri, went to the command post for the Oak
Glen 3 and Pendleton fires to help prepare maps for meetings
and ensure that the most comprehensive analysis of the fires
could be accessed.
Disaster Assistance—Esri provides resources to agencies,
organizations, and businesses that respond to and operate
programs to recover from wildfires. Esri provides GIS operations The results of different property risks, including geographic concentrations, property values, and loan values, are viewed easily.
GIS for Insurance February 2012 37Making Place-Based Decisions in the Face of Catastrophe
with software, data, imagery, project services, and technical
support.
ArcGIS Online—This online repository hosted by Esri includes
more than 20 different fire-related datasets and maps created
for this online community to share and explore. From historic
information on fires to recent fire perimeters, information can be
easily and freely accessed. Learn more.
Data Models—Esri works with organizations to create industry-
specific data models to simplify project implementations.
Organizations representing fire and emergency services (ESF 4)
have initiated a project to develop a national GIS data model.
The initial phase is available online.
Situational Awareness—Esri Situational Awareness helps
organizations fuse, analyze, and disseminate information for
optimal decision making.
Visit esri.com/insurance to find out more about Esri’s insurance
solutions, keep up-to-date on the latest trends and technologies
in the industry, and learn how we are working with companies like
yours.
(This article originally appared in the November 2009 issue of ArcWatch
e-magazine.)
Copyright © 2012 EsriAll rights reserved.Printed in the United States of America.
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US Government Restricted/Limited RightsAny software, documentation, and/or data delivered hereunder is subject to the terms of the License Agreement. The commercial license rights in the License Agreement strictly govern Licensee’s use, reproduction, or disclosure of the software, data, and documentation. In no event shall the US Government acquire greater than RESTRICTED/LIMITED RIGHTS. At a minimum, use, duplication, or disclosure by the US Government is subject to restrictions as set forth in FAR §52.227-14 Alternates I, II, and III (DEC 2007); FAR §52.227-19(b) (DEC 2007) and/or FAR §12.211/12.212 (Commercial Technical Data/Computer Software); and DFARS §252.227-7015 (DEC 2011) (Technical Data – Commercial Items) and/or DFARS §227.7202 (Commercial Computer Software and Commercial Computer Software Documentation), as applicable. Contractor/Manufacturer is Esri, 380 New York Street, Redlands, CA 92373-8100, USA.
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Contact Esri
380 New York Street Redlands, California 92373-8100 usa
1 800 447 9778 t 909 793 2853 f 909 793 5953 [email protected] esri.com
Offices worldwide esri.com/locations
Esri inspires and enables people to positively impact their future through a deeper, geographic understanding of the changing world around them.
Governments, industry leaders, academics, and nongovernmental organizations trust us to connect
them with the analytic knowledge they need to make the critical decisions that shape the planet.
For more than 40 years, Esri has cultivated collaborative relationships with partners who share our
commitment to solving earth’s most pressing challenges with geographic expertise and rational resolve.
Today, we believe that geography is at the heart of a more resilient and sustainable future. Creating
responsible products and solutions drives our passion for improving quality of life everywhere.
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